DRYING OF SOLIDS: THE INFINITE SLAB CONDITION

DRYING OF SOLIDS: THE INFINITE SLAB CONDITION

Fourier's second law was solved using convective boundary conditions without considering the shrinkage of the solid. The solutions for a finite and an infinite slab were compared to determine the dimensions for a slab to be considered as infinite. The solutions obtained for Bi = 0.1 and Bi = 10...

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Veröffentlicht in:Drying technology 2000-04, Vol.18 (4-5), p.1007-1021
Hauptverfasser: Rovedo, Clara O., Viollaz, Pascual E.
Format: Artikel
Sprache:eng
Schlagworte:
CALCULATION METHODS
DRYING
ENERGY CONSERVATION, CONSUMPTION, AND UTILIZATION
ENERGY EFFICIENCY
ERRORS
infinite slab
MATHEMATICAL MODELS
SLABS
unsteady heat conduction
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Zusammenfassung:Fourier's second law was solved using convective boundary conditions without considering the shrinkage of the solid. The solutions for a finite and an infinite slab were compared to determine the dimensions for a slab to be considered as infinite. The solutions obtained for Bi = 0.1 and Bi = 100 correspond to heat and mass transfer-controlled processes, respectively, during drying. The results show that the finite slab cannot be considered as infinite, even for R 2 /R 1 > 20. The relative error obtained when the finite slab was assumed to be infinite was not significant for small Fourier numbers, but it increased as the Fourier number increased; errors were also higher for higher Biot numbers. When the numerical solution of a drying model was obtained for finite and infinite slabs, significant differences in drying kinetics and temperature evolution were observed.
ISSN:0737-3937
1532-2300
DOI:10.1080/07373930008917750